KR101588664B1 - One Click Facilities Management Automation system using Central control-specific integrated input module - Google Patents

Abstract

The present invention relates to a one-click irrigation facility management automation system using a central control-specific integrated input/output means. More specifically, the one-click irrigation facility management automation system using a central control-specific integrated input/output means integrates a DI, a DO, and an AI module into a single module when managing various irrigation facilities such as a dam, a reservoir, a pumping/distributing station, a water pipe line, etc., and completes program link installation by a single click to allow for easy design and construction when installing the same and facilitate maintenance and repair.

Description

[0001] The present invention relates to a one-click facility management automation system using a centralized control dedicated integrated input /

The present invention relates to a one-click repair facility management automation system using an integrated input / output unit dedicated to central control, and more particularly, to a system and a system for managing a DI, And it is possible to complete the program interlocking installation by the interlocking processing unit by a single click. Thus, the one-click repair facility using the integrated input / output means dedicated to the central control that is easy to design and install at the time of installation, Management automation system.

The water management automation system is a facility to prevent disasters and reduce water and management costs by integrating and managing the work gap caused by the aging manpower that manages agricultural water supply facilities and agricultural disaster facilities by applying IT technology.

In addition, the conventional systems have been operated directly on the spot because of the lack of reliability due to manual control by depending on the numerical value in the state where the user can not see and listen to the numerical data in a manner of viewing and controlling the numerical data.

To solve this problem, there has been disclosed an intelligent water management automation system for a repair facility using sensor-based five-sensory information, which is Korean Patent Registration No. 10-1308076 (2013.09.06) filed by the applicant of the present invention.

Although the system has devised an invention to solve the above-described problems, such a system has separate modules for the state (DI), control (DO), and measurement (AI) In the case of repair facilities, the CPU module, the DI module, the DO module, and the AI module have to be all provided, resulting in waste of construction and cost.

In addition, it is a generalized system that does not take into consideration the operation and characteristics of each repair facility, so that it can be designed, constructed and maintained by only the specialized company.

Korea Patent Registration No. 10-1308076 (2013.09.06)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior arts, and it is an object of the present invention to provide a method and apparatus for integrating DI, DO, and AI modules in a single module, It is easy to design through one-click repair facility management automation system using integrated I / O means for central control to meet the purpose of installation and operation of repair facilities such as golf courses, and even general electric and communication construction companies are easy to construct and maintain, So that it can be performed.

In order to attain the object to be solved by the present invention,

The repair facility management automation system using the integrated input / output unit dedicated for central control, which integrates the DI, DO, and AI modules of the present invention into one module,

DI, DO, and AI modules are integrated in one module, so that the centralized control dedicated integrated input / output means enables status, measurement and control in one module,

A central control means for controlling the central control dedicated integrated input / output means and judging an event of a corresponding point on the spot,

The central control means is controlled, the event of the corresponding point on the spot is determined and the manager is informed, the weather related information is collected from the weather-related information collection related institutions, the respective points on the spot are monitored in real time, And a water management server for controlling the water management server.

By providing a standardized system and one-click installable program suitable for the features of each repair facility using the one-click repair facility management automation system using the integrated input / output means for central control according to the present invention, And provides an easily designable effect according to the needs and intentions of the client or designer.

Meanwhile, in the conventional system, the skilled workforce resides in the site for a considerable period of time, and the characteristics of the repair facilities are analyzed and installed. However, the system of the present invention can be installed in a short period of time, In order to reduce the water consumption, the construction of the irrigation type irrigation water has been increased, and it is possible to acquire the operation state as the acoustic signal to the irrigation channel which can not be seen by the CCTV, and the stable management becomes possible.

In addition, when a fault occurs, RTU problem, machine problem, or faulty part is displayed on the program screen, so that the manager can easily repair or purchase the faulty part and replace it easily. .

FIG. 1 is a structural view of a one-click repair facility management automation system using an integrated input / output unit for central control according to an embodiment of the present invention.
FIG. 1A is a detailed system structure of a water management server of a one-click repair facility management automation system using an integrated input / output unit dedicated to central control according to an embodiment of the present invention.
1B is a diagram illustrating a detailed system structure of a central control unit of a one-click repair facility management automation system using an integrated input / output unit dedicated to central control according to an embodiment of the present invention.
1C is a diagram illustrating a detailed system structure of a central control dedicated integrated input / output means of a one-click repair facility management automation system using centralized control dedicated integrated input / output means according to an embodiment of the present invention.
FIG. 2 is an external view of a central control means or a central control dedicated integrated input / output means of a one-click repair facility management automation system using centralized control dedicated integrated input / output means according to an embodiment of the present invention.
3 is an installation structure diagram of a one-click repair facility management automation system using a central input unit for central control according to an embodiment of the present invention.
4 is an overall view of the installation structure of the one-click repair facility management automation system using the central input / output unit for central control according to the embodiment of the present invention.
FIG. 5 is a view showing a mounting manner of the central control means or the central control dedicated integrated input / output means of the one-click repair facility management automation system using the integrated input / output means for central control according to the embodiment of the present invention.
FIG. 6A is a diagram illustrating an installation step of a water management server of the one-click repair facility management automation system using the integrated I / O unit for central control according to the embodiment of the present invention.
6B is a view showing an installation step of the water management server of the one-click repair facility management automation system using the central input / output unit for central control according to the embodiment of the present invention.
6C is a diagram illustrating an installation step of the water management server of the one-click repair facility management automation system using the central I / O unit for central control according to the embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown.

It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

The embodiments are provided to explain the present invention to a person having ordinary skill in the art to which the present invention belongs.

Therefore, the shape of each element shown in the drawings may be exaggerated in order to emphasize a clearer explanation. In the description of the present invention, when it is judged that a detailed description of the related art may obscure the gist of the present invention, It is omitted.

The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by terms. Terms are used only for the purpose of distinguishing one component from another.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention.

The singular expressions include plural expressions unless the context clearly dictates otherwise.

In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The one-click repair facility management automation system using the centralized control exclusive integrated input / output means of the present invention is an invention for improving the above-described problems of the related art. In the prior art, the DO, DI, and AI modules are separately installed There is a disadvantage that a large amount of design time is required, complicated wiring work, and a relay device must be provided for each module.

On the other hand, the one-click repair facility management automation system using the centralized control exclusive integrated input / output means of the present invention provides an advantage that the installation is automatically completed when the installer is executed through one click of the manager.

The above-described one-click is defined as one-click in the present invention.

The present invention comprises the water management server 100, the central control unit 200, and the central control dedicated integrated input / output unit 300.

FIG. 1 is a structural view of a one-click repair facility management automation system using an integrated input / output unit for central control according to an embodiment of the present invention.

FIG. 1A is a detailed system structure of a water management server of a one-click repair facility management automation system using an integrated input / output unit dedicated to central control according to an embodiment of the present invention.

1B is a diagram illustrating a detailed system structure of a central control unit of a one-click repair facility management automation system using an integrated input / output unit dedicated to central control according to an embodiment of the present invention.

1C is a diagram illustrating a detailed system structure of a central control dedicated integrated input / output means of a one-click repair facility management automation system using centralized control dedicated integrated input / output means according to an embodiment of the present invention.

1 to 1C, the water management server 100 includes a third communication unit 401 connected to at least any one of a bi-directional serial communication module, a bidirectional short-range communication module, and a wire / wireless data communication module,

At least any one or more of image information and event information acquired by the central control module 200 through the third communication unit 401 is classified into at least one of status information, sound information, measurement information, A field information classification DB 402 for storing one piece of information in at least one of a state DB, an acoustic DB, and a measurement DB,

A point information storage unit 102 for storing information including at least one of customized point information on the spot and on-site location information,

A field manager 404 for storing at least one of a field IP and a MAC address received from the power control unit (MCC) in the third communication unit 401,

A point event processing unit 405 for comparing and monitoring the event information stored in the field information classification DB with custom point information stored in the point information storage unit and notifying the event occurrence information to an administrator when an event is detected,

Information including at least one of field information and event information stored in the field information classification DB is matched with information including at least one of customized point information and field location information stored in the point information storage unit 102 A data output unit 406 for displaying matched data matching information on the screen,

The observation related to at least one of at least one of precipitation probability, diary, temperature, atmospheric pressure (surface pressure, sea surface pressure), precipitation, wind direction, wind speed, typhoon, mountain weather, sea weather, river water level, tide, seismic observation, And an associated organization information collection unit 106 for periodically collecting information on the organization.

The central control unit 200 includes a second communication unit 501 connected to at least one of a bi-directional serial communication module, a bi-directional short-range communication module, and a wire / wireless data communication module,

The power control unit information stored in the field measurement unit 602 of the central control dedicated integrated input / output unit 300 is obtained through the second communication unit 501 and classified into at least one of status, sound, and measurement, A site information collecting unit 207 for storing the site information,

An event processing unit 503 for detecting at least one event among a preset event, an event measured in the power control panel information stored in the field information collecting unit, and storing sensed event information,

Main communication, and auxiliary communication, receives power control server information including at least one of a field name, a field IP, and a MAC address from a power control panel (MCC), stores the received power control server information, A communication monitoring unit 504 for monitoring the communication apparatus 100,

The main communication is reset when the communication status is abnormal and the main communication is switched to the main communication when an abnormality in the additional communication status is detected after the main communication is reset, (505).

The central control dedicated integrated input / output unit 300 includes a first communication unit 601 connected to at least any one of a bidirectional serial communication module, a bidirectional short-range communication module, and a wire / wireless data communication module,

(DI), and a measurement (AI) module. The power control module (MCC) is self-diagnosed and monitored in real time, self-diagnosed, and the measured power control panel information is converted into at least one of status, sound, A field measurement unit 602 for storing the classified power control panel information,

A control command execution unit 303 including a control (DO) module and transmitting a control command to the power control unit (MCC) to control the corresponding point,

A signal converter 308 for A / D-converting the signal received through the first communication unit 601 and D / A-converting a control command when the control command is transmitted from the control command performing unit to the power control unit (MCC) ).

The central control dedicated integrated input / output unit 300 receives the state DI, the state of the power control panel MCC of each site point (facility at the site) Control (DO), and measurement (AI).

The field measurement unit 602 of the central control dedicated integrated input / output unit 300 real-time self-diagnoses or monitors the field point and classifies the power control panel information measured at the self-diagnosis into at least one of state, And stores the classified power control panel information for each part.

D conversion of the power control unit information for each part stored in the field measurement storage unit 602 by the signal conversion unit 308 and outputs the A / D converted power control unit information to the center through the first communication unit 601, To the control means (200).

The central control unit 200 receives power control panel information transmitted from the central control dedicated integrated input / output unit 300 through the communication module of the central control unit 200, and transmits the received power control panel information to the on- And stores it as field information by classifying it into at least one or more parts of the state, sound, and measurement.

The event processing unit 503 monitors and detects at least one event among a preset event, a system internal event, an event measured in the power control unit information stored in the field information collecting unit 207, and stores the sensed event information do.

And transmits the event information detected by the event processing unit 503 or the field information stored in the field to the water management server 100 through the second communication unit 501. [

The water management server 100 receives event information or site information transmitted from the central control module 200 through the third communication unit 401 and transmits the received event information or site information to the site information classification DB 402, And stores the classified information in at least one of a state DB, an acoustic DB, and a measurement DB.

The point event processing unit 405 compares and monitors the event information stored in the field information classification DB 402 and the custom point information stored in the point information storage unit 102 and notifies the manager of the event information when the occurrence of the event is detected .

The manager confirms the event information and transmits a control command from the water control server 100 to the central control unit 200 and transmits the control command from the central control unit 200 to the central control dedicated integrated input and output unit 300, Control points.

[0030] The structure and operation of the present invention will be described in detail based on the above description.

The centralized control dedicated integrated input / output means 300 integrally performs a state DI, a control DO, and an AI on a power control panel (MCC) of each site point (a site facility).

The first communication unit 310 is connected to at least one of a bidirectional serial communication module, a bidirectional local communication module, and a wired / wireless data communication module.

The field measurement storage unit 602 of the centralized control dedicated integrated input / output unit 300 controls the field point when a problem occurs, a point for self-diagnosis of the problem of the RTU device or the power control panel (MCC) The self-diagnosis unit 101,

(DI) module, and includes a state monitoring unit 105 for storing on / off state values of broadcasting or electric lamps, door open state values for theft prevention, and the like, and transmitting the stored state values to a field information storage unit, ,

(R, S, T) of the main voltage, stores the measured voltage measurement value, and transmits the stored voltage measurement value to the field information unit 109 A voltage measuring unit 106,

A water level measuring unit 107 configured to measure a water level and an external water level in the watercourse and to store the measured water level measurement values and to transmit the stored water level measurement values to the field information storage unit,

At least one of the point self diagnosis information of the point self diagnosis unit 101, the status value of the status monitoring unit 105, the voltage measurement value of the voltage measurement unit 106, and the water level measurement value of the water level measurement unit 107 And a field information storage unit 109 for storing the above information.

(A / D conversion) of an analog signal between the power control panel (MCC) and the central control dedicated integrated input / output means 300, converts the digital signal into an analog signal (D / A conversion) And a control signal generating device using a voltage drop to bypass the system if the voltage exceeds a predetermined value to prevent the system from malfunctioning due to a signal received from the signal input terminal, Signal converter 108,

(DO) module, receives a control command of the central control means (200) via the communication means, and transmits a received control command to the corresponding point to execute a control command for controlling the power control panel (103),

A value of a voltage value measured in the field information storage unit 109, a measured value of a water level, a measured value of a water level, a point self diagnosis information, and the like are mapped to a corresponding site point, and the mapped power control board information is transmitted to the central control unit 200 And a field information transmission unit 104 for transmitting in real time via the communication unit.

The central control unit 200 includes a communication module 212 connected to at least one of a bidirectional serial communication module, a bidirectional local area communication module, and a wire / wireless data communication module,

The power control unit information received from the centralized control dedicated integrated input / output module 300 is received in real time through the communication module, and the received information is classified into at least one of a state, an acoustics, and a measurement, A field information collecting unit 207 for storing in real time,

A field information transmission unit 208 for assigning a protocol signal code to the field information classified and stored in the field information collection unit 207 and transmitting the protocol signal code to the water management server 100 through the communication module,

Output module 300. The point self diagnosis information transmitted from the central control dedicated integrated input / output module 300 is received through the communication module, the received point self diagnosis information is used to determine whether or not an event has occurred at the corresponding point, and the determined event information is stored A point monitoring unit 206,

A DDNS information transmission unit 201 including a Dynamic Domain Name Service (DDNS) server and periodically transmitting a field name, field IP information, and MAC address to a DDNS server,

Field ID, field IP information, and MAC address information to the DDNS information transmitting unit 201, transmits an answer request signal, receives an answer signal to an answer request signal, and counts a received answer signal The monitoring unit 202,

A communication reset processing unit 203 for detecting a communication error of the communication status monitoring unit 202 and resetting the power of the main communication unit when the communication status monitoring unit 202 fails to receive an answer signal by a predetermined count number, ,

If the communication state monitoring unit 202 fails to receive an answer signal by the predetermined count number even if the reset processing is performed in the communication reset processing unit 203, the power of the auxiliary communication unit is turned on to switch the communication A communication duplication processing unit 204,

A control command receiving unit 209 for receiving a control command from the water management server 100 through the communication module and storing the received control command,

The control command stored in the control command receiving unit 209 is compared with a corresponding point of the centralized control dedicated integrated input and output means 300 and a control command is transmitted to the centralized control dedicated integrated input / A control command processing unit 210 for transmitting through the communication module,

Monitors the occurrence of a preset event or an internal event in the event information stored in the point monitoring unit 206 and, if it is determined that an event has occurred in the monitored information, inserts an event flag into the determined event information, And an event generation unit (211) for transmitting event information including a flag to the management server (100) through the communication module.

On the other hand, as shown in Fig. 2, the central control means or the central control dedicated integrated input / output means of the present invention constitutes a lamp for indicating the operation state, a terminal connection port, and a communication port for main communication and auxiliary communication .

The example of FIG. 2 shows the integrated input / output means dedicated to central control for the handwheel, and constitutes a terminal connection port for monitoring, controlling, and measuring.

In the case of monitoring, it is for performing monitoring of opening, closing, full opening, full closing, emergency, etc. In the case of control, it is for controlling opening, stopping, closing, returning, The inside water level, the outside water level, the opening rate, the current, and the like.

The water management server 100 includes a Dynamic Domain Name Service (DDNS), a DDNS information collection unit 101 for periodically acquiring a site name, site IP information, and MAC address information from a DDNS server,

A data communication module 121 connected to at least one of a bidirectional serial communication module, a bi-directional short distance communication module, and a wire / wireless data communication module,

A point information storage unit 102 for storing fixed customized point information for each site point,

Receives the event information transmitted from the central control unit 200 through the data communication module, monitors the received event information, and when it is determined that an event has occurred at the corresponding site point based on the monitored event information, To the event processing unit 111,

A field information classifying unit 107 for receiving the field information transmitted from the central control unit 200 through the data communication module and classifying the received field information into at least one of sound,

A field information storage unit 108 for constructing a DB for each part information of the field information classified by the field information classification unit 107 and storing each information,

A display position area storage unit 109 for storing a position area for displaying the on-site information stored in the on-site information storage unit 108 on the administrator screen,

A display position matching unit 110 for matching the field information of the field information storage unit 108 with the position area of the display position area storage unit 109 and outputting the same to a manager screen,

An event processing unit 111 for receiving the event information transmitted from the point monitoring unit 103 and notifying the administrator of the event by sound information or an alarm window or informing the terminal of the administrator by at least one of SMS, MMS, LMS, and SNS,

A control command transmission unit 104 for transmitting a control command to the central control unit 200 through the data communication module when the control is performed to control the corresponding site point based on the information notified by the event processing unit 111,

The observation related to at least one of at least one of precipitation probability, diary, temperature, atmospheric pressure (surface pressure, sea surface pressure), precipitation, wind direction, wind speed, typhoon, mountain weather, sea weather, river water level, tide, seismic observation, And an associated organization information collection unit 106 for periodically collecting information on the organization.

Additional configurations and relationship systems may be added to the configurations and relationships of the present invention described above, and may be excluded from the above description.

The present invention will now be described in detail with reference to the accompanying drawings, wherein like reference numerals designate identical or corresponding parts throughout the several views, (DI), DO (DO), and AI (AI) modules, even in the case of a repair facility with a small number of contact points, , Which resulted in waste of construction and costs.

In addition, it is a generalized system that does not take into consideration the operation and characteristics of each repair facility, so that it can be designed, constructed and maintained by only the specialized company.

The present invention integrates existing DI, DO, and AI modules into one module, and utilizes integrated centralized dedicated input / output means for installing and operating repair facilities such as hydrological, pump, irrigation, evacuation, It is easy to design through the repair facility management automation system, and it is easy to construct and maintain even general contractors such as electricity and communication, and it is constructed so that cheap and quick construction can be performed.

The present invention provides a system and a program which are standardized so as to be suitable for the features of the repair facilities, so that it can be easily designed according to the needs and intentions of the client or the designer.

The present invention differs from the prior art in that various conventional relay devices are installed according to the above-described configuration and relationship, and a general engineer uses a power control panel (MCC) If you connect to open, stop and close terminals and only communication line is connected, construction is completed and relay installation is not required.

The central control unit 200 of the present invention integrates video, sound, and data, and transmits the integrated data to the water management server 100, that is, the central control center through a single communication line. Bi-directional data transmission and reception.

In other words, it listens to the machine operation sound of the on-site facility, and the sound generated in the field, and broadcasts guidance and warning. The signal transmitted from the central office is analyzed and transmitted to the digital output port (DO) DI) and the measured value (analog input port (AI)) to the central office.

The central control unit 200 analyzes the information transmitted from the water management server 100, that is, the central office or the centralized control dedicated integrated input / output unit 300, And transmits video, audio, and data signals received from the remote controller to the central office.

The external communication method performs TCP / IP based Ethernet communication, and the internal communication method transmits and receives DI, DO, and AI values through RS422 serial communication periodically.

Only the changed data through each module and RS422 communication is transmitted to the central office, and the event is transmitted using the communication bandwidth efficiently.

In addition, it self-monitors and diagnoses the communication status, automatically initializes (resets) the power supply of the communication device when communication is lost, and stores the data on the line automatically.

In addition, when an error occurs in the main communication, it automatically switches to the auxiliary communication, thereby duplexing the communication network into the main communication and the auxiliary communication, thereby stably transmitting data without interruption.

The centralized control dedicated integrated input / output means (300) integrates DI, DO, and AI in one module for the facility.

The central control dedicated integrated input / output means 300 performs a self-diagnosis function. When a problem that an administrator can not control through the water management server 100 occurs, And transmits the determined and determined information to the water management server 100 so that the occurrence of the problem can be easily grasped.

In addition, the communication control unit 200 is configured to perform a common state, control, and measurement points of the repair facilities in one module, receives communications reset signal of the central control unit 200, and automatically initializes (resets) Performs a reset function.

It also monitors the status of power supply, broadcasting, and electric lamps, and measures the main voltages R, S, and T, and measures and monitors the water level and outside water level.

In addition, the integrated monitoring having a counter function (e.g., a rainfall meter, a watt hour meter, etc.) for accumulating values in accordance with pulses is performed.

And a control signal generating device using a voltage drop to bypass the device if the signal obtained from the field electric device is equal to or greater than a predetermined value to prevent malfunction of the device and to prevent a malfunction of the device when the value is less than a predetermined value Lt; / RTI >

The control signal generator includes a power supply unit (DC 12V) for supplying power, a voltage lower part (DC 5V) for lowering the supplied AC voltage, an AC / DC switching part (AC 220V - > DC 5V), a control unit constructed by a user to operate the voltage control unit, and a voltage control unit for operating the voltage control unit to operate at a voltage lower than a voltage applied thereto have.

In addition, the outer appearance of the central control dedicated integrated input / output means 300 is made of an aluminum frame to improve thermal conductivity and take a natural ventilation structure to prevent internal temperature overheating between modules.

Also, it is easy to mount and detach, and it does not affect system by using separate power unit.

Meanwhile, the water management server 100 is installed and used in a manager PC, and will be described with reference to FIGS. 6A to 6C.

6A to 6C are installation steps of the water management server of the one-click repair facility management automation system using the central I / O unit for central control according to the embodiment of the present invention.

That is, for interlocking, the central control means is connected to the water management server 100 and constitutes a water management interlocking processing section for interlocking processing so as to be able to communicate with the water management server.

6A to 6C, the installation step of the water management server 100 is performed by inserting a CD into the administrator PC, executing the CD, executing 'confirmation' at the 'program installation' step, Insert the USB dongle key into the USB terminal.

Authentication key information is included in the dongle key.

At this time, if it is determined that the USB dongle key is inserted into the USB terminal of the administrator PC and it is determined that the USB dongle key is not inserted, the process returns to the step of waiting for the USB dongle key connection.

If it is determined that the USB dongle key is inserted into the USB terminal of the administrator PC, the installer searches the installation information of the water management server 100. If it is determined that there is no installation information, an error message popup window is displayed on the screen, .

The Evercon on the drawing means the installation program, and the program (EverCon) is executed by the water management interlock processing unit.

If installation information is found in the installation information search, the installation path of the water management server 100 is searched.

If it is determined that there is no installation path in the installation route search, an error message pop-up window is displayed on the screen and the installation program is terminated.

At this time, if it is determined that there is an installation route in the installation route search, the water management server 100 is copied from the installation CD to the installation route.

If it is determined that the administrator PC is connected to the network, if it is not connected, an error message popup window is displayed on the screen and the installation program is terminated.

If it is determined that the administrator PC is connected to the network, the installation path is input to the execution setting file of the installation program, and the configuration file is copied from the installation CD to the installation path of the water management server 100.

Next, authentication information is automatically input to the service management server 100 service configuration file.

After that, the DDNS information of the DDNS server of the administrator PC is checked. If it is not confirmed, an error message popup window is displayed on the screen and the installation program is terminated.

On the other hand, when the DDNS information of the DDNS server of the manager PC is confirmed, the service of the water management server 100 is executed.

At this time, it is confirmed whether the water management server 100 and the central control means are connected. If it is determined that the water management server 100 and the central control means are not connected, an error message popup window is displayed and the service of the water management server 100 is terminated.

If it is determined that the water management server 100 and the central control means are connected, an installation completion pop-up window is displayed on the screen and the installation program is terminated.

The objects and effects of the present invention can be achieved according to the embodiments of the present invention described above.

 It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

 The foregoing embodiments are intended to illustrate the invention rather than to limit the invention.

 Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention.

Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

The drawing is also an embodiment, and there is a part not described.

100: Water management server
200: central control means
300: Centralized control dedicated integrated input / output means

Claims (3)

1. A repair facility management automation system,
A first communication unit 601 connected to a communication module of at least one of a bi-directional serial communication module, a bi-directional short-range communication module, and a wire / wireless data communication module,
(DI) module and a facility measurement (AI) module to perform a real-time self-diagnosis on a power control panel (MCC) for controlling the on-site points, A field measurement unit 602 for classifying the classified power control information into at least one of information, acoustic information, and measurement information,
A control command execution unit 303 including a control (DO) module and transmitting a control command to the power control unit (MCC) through the first communication unit 601 to control a corresponding point;
A / D-converts the signal received through the first communication unit 601, and performs signal conversion for D / A-converting the control command when the control command is transmitted from the control command performing unit 303 to the power control unit (MCC) A central control dedicated integrated input / output means (300) including a unit (308);
A second communication unit 501 connected to a communication module of at least one of a bi-directional serial communication module, a bi-directional short-range communication module, and a wire / wireless data communication module,
The power control section information stored in the field measurement section 602 of the central control dedicated integrated input / output means 300 through the second communication section and classifies at least one of the state information, the sound information, and the measurement information, A field information collecting unit 207 for storing the site information,
An event processing unit 503 for detecting at least one event among a preset event, an event measured in the power control panel information stored in the field information collecting unit 207, and storing the sensed event information,
Main communication, and auxiliary communication, receives power control server information including at least one of a field name, a field IP, and a MAC address from a power control panel (MCC), stores the received power control server information, A communication monitoring unit 504 for monitoring the communication apparatus 100,
A communication duplication processing unit (504) for determining whether the communication state of the communication monitoring unit (504) is abnormal, resetting the main communication upon detection of a communication state abnormality, 505,
A central control unit 200 connected to the water management server 100 and configured to include a water management interlock processing unit for interlocking the water management server so as to be communicable with the water management server;
A third communication unit 401 connected to at least any one of a bi-directional serial communication module, a bidirectional short-range communication module, and a wire / wireless data communication module,
At least any one or more of the field information and the event information acquired by the central control means 200 through the third communication unit 401 is classified into at least one of the state, To the at least one of the state DB, the acoustic DB, and the measurement DB,
A point information storage unit 102 for storing information including at least one of customized point information on the spot and on-site location information,
A field management unit 404 for storing at least one of a field IP and a MAC address received from the power control unit (MCC) in the third communication unit 401,
A point event processing unit 405 for comparing and monitoring the event information stored in the field information classification DB 402 and custom point information stored in the point information storage unit 102 and notifying an event occurrence information to an administrator when an event is detected, Wow,
Information including at least one of field information and event information stored in the field information classification DB 402, at least one of customized point information and field location information stored in the point information storage unit 102 A data output unit 406 for matching matched data matching information with the information on the screen,
The observation related to at least one of at least one of precipitation probability, diary, temperature, atmospheric pressure (surface pressure, sea surface pressure), precipitation, wind direction, wind speed, typhoon, mountain weather, sea weather, river water level, tide, seismic observation, And a water management server (100) including an associated organization information collecting unit (106) for periodically collecting information of an institution. The one-click repair facility management Automation system. delete delete

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